Power Consumption and Gas - Liquid Mass Transfer Volumetric Coefficient in a Mechanically Agitated Vessel with Wire - Gauze Impeller
スポンサーリンク
概要
- 論文の詳細を見る
Power consumption and gas-liquid mass transfer volumetric coefficient in a mechanically agitated vessel with wire-gauze impeller were measured over a wide range of Reynolds number. The power consumption of the wire-gauze impeller did not decrease so much with aeration and was almost independent of the gas flow rate in the turbulent flow region, contrast to that of conventional impellers such as turbine and paddle. The agitation power correlation of the wire-gauze impeller was proposed in the operating condition of the gross circulation of the gas back into the impeller. The mass transfer volumetric coefficient was empirically correlated with both the physical properties of liquid and the agitation and aeration power input per unit liquid volume in the same manner as that by Nishikawa et al. (1981b), where it depended on the void fraction of the wire-gauze blade.
- 社団法人 化学工学会の論文
著者
-
Tada Yutaka
Department of Life and Materials Engineering, Nagoya Institute of Technology
-
HIRAOKA Setsuro
Department of Applied Chemistry, Nagoya Institute of Technology
-
Kato Yoshihito
Department Of Communications And Systems The University Of Electro-communications(present Address):i
-
Takeda Yasuhiro
Department Of Life And Materials Engineering Nagoya Institute Of Technology
-
Tada Yutaka
Department Of Life And Materials Engineering Nagoya Institute Of Technology
-
Kato Yoshihiro
Department Of Life And Materials Engineering Nagoya Institute Of Technology
-
Ukai Yoshio
Department Of Applied Chemistry Nagoya Institute Of Technology
-
KAI Shinichiro
Department of Applied Chemistry, Nagoya Institute of Technology
-
INOUE Naoaki
Department of Applied Chemistry, Nagoya Institute of Technology
-
Inoue Naoaki
Department Of Applied Chemistry Nagoya Institute Of Technology
-
Kai Shinichiro
Department Of Applied Chemistry Nagoya Institute Of Technology
-
Hiraoka S
Department Of Life And Material Engineering Nagoya Institute Of Technology
-
Tada Yutaka
Department Of Life And Material Engineering Nagoya Institute Of Technology
-
Tada Yutaka
Department of Applied Chemistry, Nagoya Institute of Technology
関連論文
- Effect of Mixing on Sonochemical Reaction in a Sonoreactor
- Prediction of Mixing Pattern by Using Power Number Diagram in Baffled and Unbaffled Mixing Vessels
- PHASE EQUILIBRIA AND SIMULATION METHOD FOR HETEROGENEOUS AZEOTROPIC DISTILLATION
- Calculation of Three-Phase Flash and Partial Condensation for Ternary Systems
- A Method of Calculating Multistage Liquid-Liquid Extraction for Ternary Systems
- Solid-Liquid Mass Transfer in Gas-Liquid-Solid Agitated Vessel
- Low-Frequency Fluctuations in Agitated Vessels
- The Effect of Off-bottom Clearance on Macro Instabilities in a Stirred Vessel
- Transport Phenomena around Cylindrical Baffles in an Agitated Vessel Measured by an Electrochemical Method
- Effects of Liquid Film Formed on Flask Surface on Oxygen Transfer Rate in Shaking Flask and Development of Baffled Shaking Vessel by Optical Method Based on Sulfite Oxidation
- Mixing Performances of a New Mixing Equipment with Vibratory Fins
- Model Analysis of Mixing Time Correlation in an Agitated Vessel with Paddle Impeller
- The Superstring Action with General Reparametrization Symmetry : Particles and Fields
- Brans-Dicke Theory from M_4×Z_2 Geometry
- Estimation of Heat Transfer Coefficient from Universal Expression of Tangential Velocity at Boundary Layer Edge on Side Wall of a Fully Turbulent Agitated Vessel
- Estimation of Boundary Layer Thickness at Side Wall of a Fully Turbulent Agitated Vessel without Baffles
- Universal Expression of Tangential Velocity Distribution near Side Wall of a Fully Turbulent Agitated Vessel without Baffles
- Estimation of Tangential Velocity near Side Wall of Fully Turbulent Agitated Vessel without Baffles
- Prediction of Mixing Pattern by Using Power Number Diagram in Baffled and Unbaffled Mixing Vessels
- Performance of a Shaking Vessel-Type Bioreactor with a Current Pole
- IMPROVEMENT OF PARTICLE DISPERSION IN A SHAKING VESSEL WITH CURRENT POLE
- Effect of mixing condition of additives on the solidification of green body by gelcasting method
- GAS-LIQUID TURBULENT TWO PHASE FLOW ALONG VERTICAL FLAT PLATE WITH GAS EVOLUTION
- Power Consumption and Gas-Liquid Mass Transfer Volumetric Coefficient in an Agitated Vessel with Pitched Wire-Gauze Blade Impeller under Aeration
- Correlation of Discharge Flow Rate in a Vessel with Pitched Blade Paddle Impeller
- Production of Artificial Seed from Horseradish Hairy Root
- Enhanced Anthocyanin Production from Grape Callus in an Air-Lift Type Bioreactor Using a Viscous Additive-Supplemented Medium
- Mixing Performance of an Agitated Vessel with Bottom Baffles
- Solid-Liquid Mass Transfer and Critical Frequency for Complete Suspension in a Reciprocally Shaking Vessel
- Mixing Performance of a Reciprocally Shaking Vessel
- Enhancement of Sonochemical Reaction with the Addition of Aluminum Powder in a Sonoreactor
- Correlation of Power Consumption for Propeller and Pfaudler Type Impellers
- Effects of Sparger Geometry on Power Consumption and Mass Transfer in a Gas–Liquid Agitated Vessel with Disk Turbine
- Effects of Reflection Plate on Ultrasonic Reaction in a Sonoreactor
- Hydrodynamics and Power Consumption of Rotating Baffled Shaking Cylindrical Vessel
- Effect of Ultrasonic Irradiation on Chemical Reaction in Iodine Solution Decolorization Experiment
- Improvement of Mixing Efficiencies of Conventional Impeller with Unsteady Speed in an Impeller Revolution
- VAPORIZATION FROM PURE LIQUID SURFACE IN A CENTRIFUGAL MOLECULAR STILL
- Effect of Mixing on Sonochemical Reaction in a Sonoreactor
- Effects of Sparger Geometry on Power Consumption and Mass Transfer in a Gas-Liquid Agitated Vessel with Disk Turbine
- MASS TRANSFER VOLUMETRIC COEFFICIENT AND DROPLET DIAMETER IN LIQUID-LIQUID DISPERSIONS STIRRED WITH A PADDLE IMPELLER WITH WIRE GAUZE
- Hydrodynamics and Power Consumption of Rotating Baffled Shaking Cylindrical Vessel
- Effects of Reflection Plate on Ultrasonic Reaction in a Sonoreactor
- Power Consumption and Gas - Liquid Mass Transfer Volumetric Coefficient in a Mechanically Agitated Vessel with Wire - Gauze Impeller
- Low-Frequency Fluctuations in Agitated Vessels
- Influence of Sputtering Conditions on the Characteristics of Superconducting Y-Ba-Cu-O Films
- Heat transfer in jet mixing vessel with rotating nozzle around the vessel axis.
- Jet mixing of liquids in a rotating cylindrical vessel.
- Measurement of mass transfer rate from free surface in shaking vessel type bioreactor.
- Jet mixing of liquids with a rotating nozzle around the axis of a cylindrical vessel.
- Generalized relation between liquid pressure and solid compressive pressure in non-unidimensional filter cakes.
- Concentration dependence of diffusivity for the styrene-polystyrene and ethylbenzene-polystyrene systems.
- Combined free and forced laminar convection in thermal entrance region of horizontal triangular ducts.
- The effect of variable viscosity on laminar flow and heat transfer in rectangular ducts.
- Effects of Position and Geometry of Current Pole on Mixing Characteristics in Shaking Vessel
- Production of Regenerated Plantlet using Shaking Vessel-Type Bioreactor.
- Development of jet mixer with rotating and up-and-down moving nozzles.
- Vaporization of non-ideal binary mixture from liquid surface under vacuum.
- Mutual diffusivity of volatile materials in molten polystyrene.
- Theoretical analysis of turbulent flow and heat transfer around a surface-mounted obstacle.
- Optimum operating condition of Petlyuk's distillation process for ternary separation.
- A method for solving design problem of multicomponent distillation.
- Experimental study on heat transfer of combined free and forced laminar convection in thermal entrance region of horizontal rectangular ducts.
- Combined free and forced laminar convection in triangular ducts.
- Heat transfer under solidification of liquid on agitated vessel wall.
- Numerical analysis of three dimensional velocity profile of highly viscous Newtonian fluid in an agitated vessel with paddle impeller.
- Visualization of jet flow in a mixing vessel with a nozzle rotating around the vessel axis.
- Heat Transfer Coefficient and Mixing Time in a Cylindrical Mixing Vessel with Axial Jet Nozzles
- Analysis of heat and mass transfer in a centrifugal molecular still.
- NOTE ON ABSORPTION POINT EFFICIENCIES
- LAW OF THE WALL AND VELOCITY DEFECT LAW IN FULLY TURBULENT NON-BAFFLED AGITATED VESSEL
- Numerical method for solving steady three-dimensional heat conduction problem in sector column.
- TRANSPORT PHENOMENA AT THE WALL OF AGITATED VESSELS